18580085. Method for Manufacturing Fuel Cell and corresponding Fuel Cell simplified abstract (Robert Bosch GmbH)
Contents
Method for Manufacturing Fuel Cell and corresponding Fuel Cell
Organization Name
Inventor(s)
Method for Manufacturing Fuel Cell and corresponding Fuel Cell - A simplified explanation of the abstract
This abstract first appeared for US patent application 18580085 titled 'Method for Manufacturing Fuel Cell and corresponding Fuel Cell
Simplified Explanation:
The patent application describes a method for manufacturing a fuel cell with a membrane electrode assembly, a sealing frame, and bipolar plates. The method involves placing the membrane electrode assembly in a mold, injecting a sealing material into the mold to form the sealing frame, and assembling the bipolar plates.
Key Features and Innovation:
- Method for manufacturing a fuel cell with improved moldability and mechanical strength
- Cost-effective and rapid mass production of fuel cells
- Sealing frame with different proportions of components in inner and outer peripheral regions
Potential Applications: The technology can be used in various industries such as automotive, aerospace, and stationary power generation for clean energy production.
Problems Solved: The technology addresses the need for cost-effective and efficient manufacturing processes for fuel cells with improved mechanical strength.
Benefits:
- Cost-effective production of fuel cells
- Improved mechanical strength and moldability
- Enables rapid mass production of fuel cells
Commercial Applications: The technology can be applied in the automotive industry for fuel cell vehicles, in aerospace for power generation, and in stationary power generation for clean energy production.
Questions about Fuel Cell Manufacturing: 1. How does the method described in the patent application improve the manufacturing process of fuel cells? 2. What are the potential cost savings associated with using this technology in fuel cell production?
Frequently Updated Research: There may be ongoing research in the field of fuel cell manufacturing to further enhance efficiency and cost-effectiveness.
By optimizing the manufacturing process of fuel cells, this technology has the potential to revolutionize the clean energy industry and drive the adoption of fuel cell technology in various applications.
Original Abstract Submitted
A method is disclosed for manufacturing a fuel cell that includes a membrane electrode assembly, a sealing frame surrounding the membrane electrode assembly, and bipolar plates. The method includes (i) placing a prepared membrane electrode assembly into a pre-designed mold, (ii) injecting a sealing material composed of a first component and a second component into the mold and cooling it to solidify thereby forming the sealing frame, wherein the sealing frame has an inner peripheral region and an outer peripheral region, and wherein the first component in the inner peripheral region has a first proportion different from a second proportion of the second component in the outer peripheral region, and (iii) assembling the bipolar plates on both sides of the membrane electrode assembly and the sealing frame. Also disclosed is a corresponding fuel cell which enables cost-effective and rapid mass production while improving moldability and mechanical strength.
